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010-4091943
Louis Theodore Meer over Louis Theodore

Chemical Engineering
Specificaties
Gebonden, blz. | Engels
McGraw-Hill Education | e druk, 2013
ISBN13: 9780071831314
Rubricering
McGraw-Hill Education e druk, 2013 9780071831314
164,91
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Samenvatting

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
A practical, concise guide to chemical engineering principles and applications

Chemical Engineering: The Essential Reference is the condensed but authoritative chemical engineering reference, boiled down to principles and hands-on skills needed to solve real-world problems. Emphasizing a pragmatic approach, the book delivers critical content in a convenient format and presents on-the-job topics of importance to the chemical engineer of tomorrow—OM&I (operation, maintenance, and inspection) procedures, nanotechnology, how to purchase equipment, legal considerations, the need for a second language and for oral and written communication skills, and ABET (Accreditation Board for Engineering and Technology) topics for practicing engineers. This is an indispensable resource for anyone working as a chemical engineer or planning to enter the field.

Praise for Chemical Engineering: The Essential Reference:

“Current and relevant...over a dozen topics not normally addressed...invaluable to my work as a consultant and educator.” —Kumar Ganesan, Professor and Department Head, Department of Environmental Engineering,Montana Tech of the University of Montana

“A much-needed and unique book, tough not to like...loaded with numerous illustrative examples...a book that looks to the future and, for that reason alone, will be of great interest to practicing engineers.” —Anthony Buonicore, Principal, Buonicore Partners

Coverage includes: Basic calculations and key tablesProcess variablesNumerical methods and optimizationOral and written communicationSecond language(s)Chemical engineering processesStoichiometryThermodynamicsFluid flowHeat transferMass transfer operationsMembrane technologyChemical reactorsProcess controlProcess designBiochemical technologyMedical applicationsLegal considerationsPurchasing equipmentOperation, maintenance, and inspection (OM&I) proceduresEnergy managementWater managementNanotechnologyProject managementEnvironment managementHealth, safety, and accident managementProbability and statisticsEconomics and financeEthicsOpen-ended problems

Specificaties

ISBN13:9780071831314
Taal:Engels
Bindwijze:gebonden
Uitgever:McGraw-Hill Education

Inhoudsopgave

Introduction<br/>Part I: Introduction to Engineering<br/>1. Basic Calculations and Key Tables<br/>1–1 Introduction<br/>1–2 Units and Dimensions<br/>1–3 Unit Conversion Factors<br/>1–4 The Gravitational Constant, gc<br/>1–5 Significant Figures and Scientific Notation<br/>1–6 Dimensionless Groups<br/>1–7 Mathematics Tables<br/>1–8 Tables of Atomic Weights<br/>1–9 Water (Steam) Tables<br/>References<br/>2. Process Variables<br/>2–1 Introduction<br/>2–2 Temperature<br/>2–3 Pressure<br/>2–4 Molecular Weights and Moles<br/>2–5 Mass and Volume<br/>2–6 Viscosity<br/>2–7 Surface Tension<br/>2–8 Heat Capacity and Thermal Conductivity<br/>2–9 Diffusion Coefficient<br/>2–10 pH<br/>2–11 Reynolds Number<br/>2–12 The Ideal-Gas Law<br/>2–13 Vapor Pressure, Partial Pressure, and Partial Volume<br/>2–14 Property Estimation<br/>References<br/>3. Numerical Methods and Optimization<br/>3–1 Introduction<br/>3–2 Differentiation<br/>3–3 Numerical Integration<br/>3–4 Simultaneous Linear Algebraic Equations<br/>3–5 Nonlinear Algebraic Equations<br/>3–6 Ordinary Differential Equations<br/>3–7 Partial Differential Equations<br/>3–8 Optimization<br/>References<br/>4. Oral and Written Communication<br/>4–1 Introduction<br/>4–2 Technical Jargon<br/>4–3 Sources of Information<br/>4–4 Oral Presentations<br/>4–5 Technical Writing<br/>4–6 On That First Job<br/>References<br/>5. Second Language(s)<br/>5–1 Introduction<br/>5–2 Early History<br/>5–3 Questions Regarding the Learning Process<br/>5–4 Second-Language Factors<br/>5–5 The Choice of Language<br/>5–6 Barriers<br/>References<br/>6. Chemical Engineering Processes<br/>6–1 Introduction<br/>6–2 The Chemical Industry Today<br/>6–3 Inorganic Chemicals<br/>6–4 Organic Chemicals<br/>6–5 Petrochemicals<br/>6–6 Shreve’s Unit Processes<br/>References<br/>Part II: Unit Operations<br/>7. The Conservation Laws and Stoichiometry<br/>7–1 Introduction<br/>7–2 The Conservation Laws<br/>7–3 Conservation of Mass<br/>7–4 The Conservation Law for Energy<br/>7–5 The Conservation Law for Momentum<br/>7–6 Stoichiometry<br/>References<br/>8. Thermodynamics<br/>8–1 Introduction<br/>8–2 Enthalpy Effects<br/>8–3 Second-Law Calculations<br/>8–4 Phase Equilibrium<br/>8–5 Chemical Reaction Equilibrium<br/>References<br/>9. Fluid Flow<br/>9–1 Introduction<br/>9–2 Basic Laws<br/>9–3 Key Fluid Flow Equations<br/>9–4 Prime Movers<br/>9–5 Fluid-Particle Applications<br/>9–6 Flow-through Porous Media<br/>9–7 Fluidization<br/>References<br/>10. Heat Transfer<br/>10–1 Introduction<br/>10–2 Conduction<br/>10–3 Convection<br/>10–4 Radiation<br/>10–5 Condensation, Boiling, Refrigeration, and Cryogenics<br/>10–6 Heat Exchangers<br/>10–7 The Heat Exchanger Dilemma<br/>References<br/>11. Mass Transfer<br/>11–1 Introduction<br/>11–2 Equilibrium and Rate Principles<br/>11–3 Absorption<br/>11–4 Adsorption<br/>11–5 Distillation<br/>11–6 Liquid-Liquid Extraction and Leaching<br/>References<br/>12. Membrane Separation Processes<br/>12–1 Introduction<br/>12–2 Membrane Separation Principles<br/>12–3 Reverse Osmosis<br/>12–4 Ultrafiltration<br/>12–5 Microfiltration<br/>12–6 Gas Permeation<br/>12–7 Pervaporation<br/>12–8 Electrodialysis<br/>References<br/>13. Chemical Reactors<br/>13–1 Introduction<br/>13–2 Chemical Kinetics<br/>13–3 Arrhenius Equation<br/>13–4 Batch Reactors<br/>13–5 Continuous Stirred Tank Reactors (CSTRs)<br/>13–6 Tubular Flow Reactors<br/>13–7 Catalytic Reactors<br/>13–8 Thermal Effects<br/>13–9 Interpretation of Kinetic Data<br/>References<br/>14. Process Control<br/>14–1 Introduction<br/>14–2 Process Control Fundamentals<br/>14–3 Calibration of Flow and Temperature Transducers<br/>14–4 Sizing Concerns<br/>14–5 Feedback Control<br/>14–6 Feedforward Control<br/>14–7 Cascade Control<br/>References<br/>15. Process and Plant Design<br/>15–1 Introduction<br/>15–2 Preliminary Studies<br/>15–3 Process Schematics<br/>15–4 Material Balances<br/>15–5 Equipment Design<br/>15–6 Instrumentation and Controls<br/>15–7 Design Approach<br/>15–8 The Design Report<br/>Refereces<br/>Part III: Peripheral Topics<br/>16. Biomedical Engineering<br/>16–1 Introduction<br/>16–2 Basic Operations<br/>16–3 Biological Oxygen Demand (BOD)<br/>16–4 Design Considerations<br/>16–5 Design Procedures<br/>References<br/>17. Medical Applications<br/>17–1 Introduction<br/>17–2 Early History<br/>17–3 Definitions<br/>17–4 Key Anatomic Parts<br/>17–5 Current Medical Problem Areas<br/>17–6 Health Risk Factors<br/>17–7 Chemical Engineering Medical Applications<br/>17–8 Chemical Engineering Opportunities<br/>References<br/>18. Legal Considerations<br/>18–1 Introduction<br/>18–2 Laws and Regulations: The Differences<br/>18–3 Intellectual Property Law<br/>18–4 Contract Law<br/>18–5 Tort Law<br/>18–6 Patents<br/>18–7 Copyright Infringement and Interference<br/>18–8 Copyrights<br/>18–9 Trademarks<br/>18–10 The Engineering Professional Licensing Process<br/>References<br/>19. Purchasing Equipment<br/>19–1 Introduction<br/>19–2 Factors in Equipment Selection<br/>19–3 Preliminary Studies<br/>19–4 Equipment Design<br/>19–5 Equipment Specifications<br/>19–6 Materials Selection<br/>19–7 Instrumentation and Controls<br/>19–8 Equipment Selection<br/>19–9 Equipment Fabrication<br/>19–10 Installation Procedures<br/>19–11 Purchasing Equipment Guidelines<br/>References<br/>20. Operation, Maintenance, and Inspection<br/>20–1 Introduction<br/>20–2 Installation Procedures<br/>20–3 Operation<br/>20–4 Maintenance and Inspection<br/>20–5 Testing<br/>20–6 Improving Operation and Performance<br/>20–7 Other Equipment<br/>References<br/>21. Energy Management<br/>21–1 Introduction<br/>21–2 Early History<br/>21–3 Energy Resources<br/>21–4 Energy Quantity and Availability<br/>21–5 General Conservation Practices in Industry<br/>21–6 General Domestic and Commercial Property Conservation Applications<br/>21–7 Architecture and the Role of Urban Planning<br/>21–8 U.S. Energy Policy and Energy Independence<br/>21–9 Future Outlook<br/>References<br/>22. Water Management<br/>22–1 Introduction<br/>22–2 Physicochemical Properties of Water<br/>22–3 The Hydrologic Cycle<br/>22–4 Water Usage<br/>22–5 Regulatory Status<br/>22–6 Acid Rain<br/>22–7 Treatment Processes<br/>22–8 Future Concerns<br/>References<br/>23. Nanotechnology<br/>23–1 Introduction<br/>23–2 Early History<br/>23–3 Fundamentals and Basic Principles<br/>23–4 Nanomaterials<br/>23–5 Production Methods<br/>23–6 Current Applications<br/>23–7 Environmental Concerns<br/>23–8 Current Environmental Regulations<br/>23–9 Future Prospects<br/>References<br/>24. Project Management<br/>24–1 Introduction<br/>24–2 Initiation<br/>24–3 Planning and Scheduling<br/>24–4 Execution and Implementation<br/>24–5 Monitoring and Controlling<br/>24–6 Closing (Project Termination)<br/>24–7 Small-Scale Project Management<br/>24–8 Reports<br/>References<br/>Part IV: Accreditation Board for Engineering and Technology (ABET) Topics<br/>25. Environmental Management<br/>25–1 Introduction<br/>25–2 Environmental Regulations<br/>25–3 Air, Water, and Solid Waste Management<br/>25–4 Classification, Sources, and Effects of Pollutants<br/>25–5 Multimedia Concerns<br/>25–6 ISO 14000<br/>25–7 Energy Conservation<br/>25–8 The Pollution Prevention Concept<br/>25–9 Green Chemistry and Green Engineering<br/>25–10 Sustainability<br/>References<br/>26. Health, Safety, and Accident Management<br/>26–1 Introduction<br/>26–2 Safety and Accidents<br/>26–3 Emergency Planning and Response<br/>26–4 Regulations<br/>26–5 Introduction to Environmental Risk Assessment<br/>26–6 Health Risk Assessment<br/>26–7 Hazard Risk Assessment<br/>References<br/>27. Probability and Statistics<br/>27–1 Introduction<br/>27–2 Probability Definitions and Interpretations<br/>27–3 Introduction to Probability Distributions<br/>27–4 Discrete Probability Distributions<br/>27–5 Continuous Probability Distributions<br/>27–6 Contemporary Statistics<br/>27–7 Regression Analysis<br/>27–8 Analysis of Variance<br/>References<br/>28. Economics and Finance<br/>28–1 Introduction<br/>28–2 Capital Costs<br/>28–3 Operating Costs<br/>28–4 Project Evaluation<br/>28–5 Perturbation Studies in Optimization<br/>28–6 Cost-Benefit Analysis<br/>28–7 Principles of Accounting<br/>References<br/>29. Ethics<br/>29–1 Introduction<br/>29–2 The Present State<br/>29–3 Moral Issues<br/>29–4 Engineering Ethics<br/>29–5 Environmental Justice<br/>29–6 The Pros and Cons of Environmental Justice<br/>References<br/>30. Open-Ended Problems<br/>30–1 Introduction<br/>30–2 The Author’s Approach<br/>30–3 Earlier Experience<br/>30–4 Developing Students’ Power of Critical Thinking<br/>30–5 Creativity and Brainstorming<br/>30–6 Inquiring Minds<br/>30–7 Applications<br/>References<br/>Index

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